Acceleration becomes 50% less.
If mass doubles, momentum stays the same, but the velocity is half. momentum = mass * velocity mass1 * velocity1 = mass2 * velocity2
The equation for force is F = M x A F = Force, M = Mass, A = Acceleration Based on the equation, in order for force to increase, and mass stay the same, you will have to increase the accelaration of the object in motion.
I'm guessing this question relates to the formula Force=mass*acceleration. in this case if the mass stays the same, then Force and acceleration are directly proportional (if one goes up, then by mathematical law, the other one also has to)
The force of gravity is directly related to the mass of every object in the system. Therefore, if any object in the system decreases in mass, the force of gravity also decreases.
The force of gravity between two objects will decrease in proportion to the square of the change of distance between them.
Gravity is the force of attraction between all masses in the universe.The magnitude of a gravitational force depends onthe masses of the objectsthe distance between the objectsThe gravitational force between two bodies increases as their masses increase.
It doesn't, mass stays the same unless acted in by an outside force, balance isn't an outside force
If mass doubles, momentum stays the same, but the velocity is half. momentum = mass * velocity mass1 * velocity1 = mass2 * velocity2
It Will increase
Mass stays the same everywhere, it is the weight that changes because of the gravity force
The equation for force is F = M x A F = Force, M = Mass, A = Acceleration Based on the equation, in order for force to increase, and mass stay the same, you will have to increase the accelaration of the object in motion.
ANY net force will cause an acceleration. If the force is reduced, there will be less acceleration, though.
Nothing - there is no force acting on it - it's mass stays the same and would be what it is on earth
It increases. (Standard rocket science.)
It increases. (Standard rocket science.)
The mass stays the same because mass doesn't change(under certain circumstances.)
Nothing, an object's mass stays the same regardless of what gravitational forces act upon it, assuming the object stays in one piece.